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CE 394K.2 Hydrology

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CE 394K.2 Hydrology Infiltration Reading AH Sec 5.1 to 5.5 Some s were prepared by Venkatesh Merwade Slides 2-6 come from http://biosystems.okstate.edu/Home ... – PowerPoint PPT presentation

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Title: CE 394K.2 Hydrology


1
CE 394K.2 Hydrology
  • Infiltration
  • Reading AH Sec 5.1 to 5.5
  • Some slides were prepared by Venkatesh Merwade
  • Slides 2-6 come from http//biosystems.okstate.edu
    /Home/mkizer/C20Soil20Water20Relationships.ppt

2
Soil Water Measurement
  • Neutron scattering (attenuation)
  • Measures volumetric water content (?v)
  • Attenuation of high-energy neutrons by hydrogen
    nucleus
  • Advantages
  • samples a relatively large soil sphere
  • repeatedly sample same site and several depths
  • accurate
  • Disadvantages
  • high cost instrument
  • radioactive licensing and safety
  • not reliable for shallow measurements near the
    soil surface
  • Dielectric constant
  • A soils dielectric constant is dependent on soil
    moisture
  • Time domain reflectometry (TDR)
  • Frequency domain reflectometry (FDR)
  • Primarily used for research purposes at this time

3
Soil Water MeasurementNeutron Attenuation
4
Soil Water Measurement
  • Tensiometers
  • Measure soil water potential (tension)
  • Practical operating range is about 0 to 0.75 bar
    of tension (this can be a limitation on medium-
    and fine-textured soils)
  • Electrical resistance blocks
  • Measure soil water potential (tension)
  • Tend to work better at higher tensions (lower
    water contents)
  • Thermal dissipation blocks
  • Measure soil water potential (tension)
  • Require individual calibration

5
Tensiometer for Measuring Soil Water Potential
Water Reservoir
Variable Tube Length (12 in- 48 in) Based on Root
Zone Depth
Porous Ceramic Tip
Vacuum Gauge (0-100 centibar)
6
Electrical Resistance Blocks Meters
7
Infiltration
  • General
  • Process of water penetrating from ground into
    soil
  • Factors affecting
  • Condition of soil surface, vegetative cover, soil
    properties, hydraulic conductivity, antecedent
    soil moisture
  • Four zones
  • Saturated, transmission, wetting, and wetting
    front

8
Richards Equation
  • Recall
  • Darcys Law
  • Total head
  • So Darcy becomes
  • Continuity becomes

Soil water diffusivity
9
Philips Equation
  • Recall Richards Equation
  • Assume K and D are functions of q, not z
  • Solution
  • Two terms represent effects of
  • Suction head
  • Gravity head
  • S Sorptivity
  • Function of soil suction potential
  • Found from experiment

10
Infiltration into a horizontal soil column
Boundary conditions
T To for x 0, t gt 0
T Tn for t 0, x gt 0
x
0
Equation
11
Measurement of Diffusivity by Evaporation from
Soil Cores
Air stream
q
x
q soil water flux evaporation rate
12
Measurement of Diffusivity by Evaporation from
Soil Cores
http//www.regional.org.au/au/asa/2006/poster/wate
r/4521_deeryd.htm
13
Numerical Solution of Richards Equation
(Ernest To)
http//www.ce.utexas.edu/prof/maidment/GradHydro20
07/Ex4/Ex4Soln.doc
14
Implicit Numerical Solution of Richards Equation
t (j)
j j -1
x (i)
i-1 i i1
15
Implicit Numerical Solution of Richards Equation
16
Matrix solution of the equations
17
T
18
f
19
F
20
Definitions
Element of soil, V (Saturated)
Pore with water
solid
Pore with air
Element of soil, V (Unsaturated)
21
Infiltration
  • Infiltration rate
  • Rate at which water enters the soil at the
    surface (in/hr or cm/hr)
  • Cumulative infiltration
  • Accumulated depth of water infiltrating during
    given time period

22
Infiltrometers
Single Ring
Double Ring
http//en.wikipedia.org/wiki/Infiltrometer
23
Infiltration Methods
  • Horton and Phillips
  • Infiltration models developed as approximate
    solutions of an exact theory (Richards Equation)
  • Green Ampt
  • Infiltration model developed from an approximate
    theory to an exact solution

24
Hortonian Infiltration
  • Recall Richards Equation
  • Assume K and D are constants, not a function of q
    or z
  • Solve for moisture diffusion at surface

f0 initial infiltration rate, fc is constant rate
and k is decay constant
25
Hortonian Infiltration
26
Philips Equation
  • Recall Richards Equation
  • Assume K and D are functions of q, not z
  • Solution
  • Two terms represent effects of
  • Suction head
  • Gravity head
  • S Sorptivity
  • Function of soil suction potential
  • Found from experiment

27
Green Ampt Infiltration
Ponded Water
Ground Surface
Wetted Zone
Wetting Front
Dry Soil
28
Green Ampt Infiltration (Cont.)
Ground Surface
Wetted Zone
Wetting Front
  • Apply finite difference to the derivative,
    between
  • Ground surface
  • Wetting front

Dry Soil
29
Green Ampt Infiltration (Cont.)
Ground Surface
Wetted Zone
Wetting Front
Dry Soil
Evaluate the constant of integration
Integrate
30
Green Ampt Infiltration (Cont.)
Ground Surface
Wetted Zone
Wetting Front
Dry Soil
Nonlinear equation, requiring iterative solution.
See http//www.ce.utexas.edu/prof/mckinney/ce311
k/Lab/Lab8/Lab8.html
31
Soil Parameters
  • Green-Ampt model requires
  • Hydraulic conductivity, Porosity, Wetting Front
    Suction Head
  • Brooks and Corey

Effective saturation
Effective porosity
32
Ponding time
  • Elapsed time between the time rainfall begins and
    the time water begins to pond on the soil surface
    (tp)

33
Ponding Time
  • Up to the time of ponding, all rainfall has
    infiltrated (i rainfall rate)

34
Example
  • Silty-Loam soil, 30 effective saturation,
    rainfall 5 cm/hr intensity
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